MEGA SAMPLES VOL-101
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All the Samples From Mars is the culmination of 9 years (and tens of thousands of hours) of sampling our favorite, most inspiring (often rare and vintage) drum machines, synthesizers, custom vinyl, and more. Recorded through some of the best recording equipment in the world, all of our samples feature 100% hardware processing - no plugins. And every sample has been painstakingly mapped for various types of software and hardware. We craft everything by hand in our studio:
We capture the cleanest possible samples (we've spent years sampling and at this point may have more experience than anybody else in the world doing so). This starts with making sure the drum machine is serviced, plugging it into the cleanest possible power, high end DIs and our API 1608 console. We record through high quality conversion (Apogee Symphony MKII) and often spice things up with a mastering reel to reel, and a host of mastering level hardware saturators, EQs, and compressors we've collected over the years. Most of our drum products include clean and color samples. The following are demos composed of the one shot drum samples:
Copy number variation. First, we tested samples from 2270 consecutive MEGA subjects (1395 patients and 875 controls). An abnormal MLPA pattern was detected in only 1 individual. This individual was a 66-year-old, female patient not using estrogens or vitamin K antagonists at the moment of thrombosis or sample collection. She had an unprovoked first venous thrombosis. Her family history was not available. The patient was heterozygous for a complete deletion of PROS1. Her total protein S was 64 U/dL (
The most immediate step will be to expand our efforts to recruit editors, editorial board members, and reviewers from diverse backgrounds. In addition, our team has been paying close attention to concerns raised about biases in the evaluation of work that includes samples from under-represented groups or from authors from under-represented backgrounds. For instance, studies with samples from under-represented groups have sometimes been criticized for a lack of generalizability, whereas samples of college students get a pass on this issue (Atherton, 2021). We pledge to watch for these problematic comments in reviews and decision letters to reduce the negative impact that such biases have. Anyone who has concerns about their experiences during the review process can contact the editor-in-chief at any time.
Typically volume lashes cost more as the artist will need to spend more hours creating lash fans and applying them. Usually, a beautiful classic lash set can be done for $80 to $150, while a full set of volume or mega volume lash extension costs around $120 to $400. Fill (touch-up) should cost about half of your full set.
The size of information in the computer is measured in kilobytes, megabytes, gigabytes, and terabytes. In this section, we'll look at common sizes you would see in real life and learn how to reason about various numbers of bytes.Kilobyte or KBKilobyte KB - about 1 thousand bytesAs we know, 1 byte is one typed character - see below for why the phrase "about 1 thousand" is required hereAn email without images is about 2 KBA five page paper might be 100 KBText is compact, requiring few bytes compared to images or sound or videoe.g. 23,000 bytes is about 23 KBOne kilobyte (KB) is a collection of about 1000 bytes. A page of ordinary Roman alphabetic text takes about 2 kilobytes to store (about one byte per letter). A typical short email would also take up just 1 or 2 kilobytes. Text is one of the most naturally compact types of data at about one byte required to store each letter. In non-roman alphabets, such as Mandarin, the storage takes up 2 or 4 bytes per "letter" which is still pretty compact compared to audio and images.Megabyte or MBMegabyte (MB) - about 1 million bytesaka about 1000 KBMP3 audio is about 1 megabyte per minuteA high quality digital picture is about 2-5 megabytese.g. 45,400 KB is 45.4 MBOne megabyte is about 1 million bytes (or about 1000 kilobytes). An MP3 audio file of a few minutes or a 10 million pixel image from a digital camera would typically take up few megabytes. The rule of thumb for MP3 audio is that 1 minute of audio takes up about 1 megabyte. Audio and image and video data typically stored in "compressed" form, MP3 being an example. We'll talk about how compression works later. A data CD disk stores about 700 MB. The audio on a CD is not compressed, which is why it takes so much more space than the MP3. The series of bits are represented as spiral path of tiny pits in the silver material in the disk. Imagine that each pit is interpreted as a 0, and the lack of a pit is a 1 as the spiral sequence is read. Fun fact: the whole spiral on a CD is over 5km long.Math - You Try It 2,000,000 bytes is about how many MB?Show Solution2,000,000 bytes = 2 MB 23,000 KB is about how many MB?Show Solution23,000 KB = 23 MB (1000 KB = 1 MB) 500 KB is about how many MB?Show Solution500 KB = 0.5 MBGigabyte or GBGigabyte GB = about a billion bytesaka about 1000 MBGB is a common unit for modern hardwaree.g. 4000 MB = 4 GBAn ordinary computer might have: -4 GB or RAM -256 GB of persistent storageA DVD disk has a capacity 4.7GB (single layer)-Figure 2 GB per hour of video (varies greatly)A flash drive might hold 32 GBA hard drive might hold 750 GBOne gigabyte (GB) is about 1 billion bytes, or 1 thousand megabytes. A computer might have 4 GB of RAM. A flash memory card used in a camera might store 16 GB. A DVD movie is roughly 4-8 GB.Math - You Try ItHow many GB is 4,000,000,000 bytes?Show Solution4 billion bytes = 4 GBSay you have many 5 MB JPEG images. How many fit on a 16 GB flash drive?Show Solution(convert everything to MB)16 GB is 16,000 MB16,000 / 5 = 3,200Terabyte or TBOne terabyte (TB) is about 1000 gigabytes, or roughly 1 trillion bytes. You can buy 4 TB hard drives today, so we are beginning the time when this term comes in to common use. Gigabyte used to be an exotic term too, until Moore's law made it common.Gigahertz - Speed, not BytesOne gigahertz is 1 billion cycles per second (a megahertz is a million cycles per second). Gigahertz is a measure of speed, very roughly the rate that at a CPU can do its simplest operation per second. Gigahertz does not precisely tell you how quickly a CPU gets work done, but it is roughly correlated. Higher gigahertz CPUs also tend to be more expensive to produce and they use more power (and as a result give off more heat) - a challenge for putting fast CPUs in small devices like phones. The ARM company is famous for producing chips that are very productive with minimal power and heat. Almost all cell phones currently use ARM CPUs.Kilobyte / Megabyte / Gigabyte Word ProblemsYou should be comfortable doing simple arithmetic to figure MB / GB sizes, just as you should be able to do basic computations with second, miles, kilos and so forth.Basic plan: before adding measures X and Y, convert them to be in the same units.Word ProblemsSolutionAlice has 600 MB of data. Bob has 2000 MB of data. Will it all fit on Alice's 4 GB thumb drive?showYes it fits: 600 MB + 2000 MB is 2600 MB. 2600 MB is 2.6 GB, so it will fit on the 4 GB drive no problem. Equivalently we could say that the 4 GB drive has space for 4000 MB.Alice has 100 small images, each of which is 500 KB. How much space do they take up overall in MB?show100 times 500 KB is 50000 KB, which is 50 MB.Your ghost hunting group is recording the sound inside a haunted Stanford classroom for 20 hours as MP3 audio files. About how much data will that be, expressed in GB?showMP3 audio takes up about 1 MB per minute. 20 hours, 60 minutes/hour, 20 * 60 yields 1200 minutes. So that's about 1200 MB, which is 1.2 GB.
Although multiple problems have been cited with the studies on a small sample,[21,22,23] many examples exist of useful studies on small samples. Some big discoveries have started with case series such as the dissemination of Kaposi sarcoma in young homosexuals and pneumocystis pneumonia. Most preclinical studies are done on a small sample of animals, particularly for regimens with a potentially harmful outcome such as insecticides. Animal experiments can be done in highly controlled conditions to nearly eliminate all the confounders, and thus, establish the cause-effect relationship without studying a big sample. This shows that the crucial requirement for analytical research is not the sample size but the control of all the cofounders. When they are under control, the variance decreases, and sufficient power is achieved with a smaller sample. Thus, a study with a small sample can provide more believable results than those on a large sample with uncontrolled confounders. Small samples have a tremendous advantage as highly sophisticated and accurate measurements can be made with all the precautions in place. The measurement errors and biases can be easily controlled and can be easily identified in a small sample. The aggregation errors that occur due to the combining of small and large values are less likely with small samples. Small samples give quick results, can be carried out in one center without the hassles of multicenter studies, and are easy to get the ethical committee approval. They may require exact methods of statistical analysis that can help in reaching more valid conclusions.
Among the clinical studies, phase-I trials are done on small samples where the objective is to test toxicity. In other setups, Hansen and Fulton carried out a study on four children with a history of mild retinopathy of prematurity (ROP) and four controls and concluded that there is evidence of peripheral rod photoreceptor involvement in the subjects with ROP. Machado et al. found severe acute respiratory syndrome coronavirus-2 viral ribonucleic acid (SARS-COV-2 viral RNA) in the semen of 1 out of 15 patients of this disease and considered it enough to alert about a possible new mode of transmission. Hatchell et al. studied six or fewer patients undergoing different reconstructions and concluded that vascularized nerve grafts for facial nerve offer a practical and viable facial reconstruction surgery with acceptable donor site deficits. Most trials on surgical procedures are done on small samples because of the unavailability of many homogeneous cases, intra-operative variations, and the difficulty in obtaining patient consent for randomization for such trials. A small sample has not impeded the progress of science in these disciplines. 2b1af7f3a8